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Abstract

Laser-induced fluorescence techniques have been used successfully
for quantitative two-dimensional measurements of nitric oxide. The commonly
applied D–X(0, 1) or
A–X(0, 0) schemes are
restricted to atmospheric-pressure flames and engines driven with gaseous
fuels because of strong attenuation of the exciting laser beam by combustion
intermediates. The properties of a detection scheme for which excitation in
the nitric oxide A–X(0, 2)
band was used were investigated. We discuss the advantages of the
A–X(0, 2) system (excited at 247.95 nm)
based on measurements in laminar premixed methane/air flames
at 1–40 bars.

References

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